Translational approach to establish the cardiometabolic health effects and mechanisms of action of fish nutrients-it takes a village.

Patricia L Mitchell, Geneviève Pilon, Laurent Bazinet, Claudia Gagnon, S John Weisnagel, Hélène Jacques, Marie-Claude Vohl, André Marette
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Abstract

People use dietary supplements to offset nutritional deficiencies and manage metabolic dysfunction. While the beneficial effect of fish proteins on glucose homeostasis is well established, the ability of fish peptides to replicate the protein findings is less clear. With financial support from a programmatic Canadian Institutes of Health Research (CIHR) Team grant, we aimed to identify salmon peptide fractions (SPFs) with the potential to mitigate metabolic dysfunction. Additionally, the grant aims included assessing whether vitamin D, a nutrient commonly found in salmon, could potentiate the beneficial effects of salmon peptides. In parallel, technologies were developed to separate and filter the isolated peptides. We employed an integrative approach that combined nutritional interventions in animal models and human subjects to identify metabolic pathways regulated by salmon peptides and other fish nutrients. This combination of interdisciplinary expertise revealed that a SPF could be a therapeutic tool used in the prevention and management of cardiometabolic diseases. Herein, we present a perspective of our CIHR funded grant that utilized a translational approach to establish the cardiometabolic health effects and mechanisms of action of fish nutrients: from animal models to clinical trials.

采用转化方法确定鱼类营养素对心脏代谢健康的影响和作用机制--这需要一个村庄。
人们使用膳食补充剂来弥补营养不足和控制代谢功能障碍。虽然鱼类蛋白质对葡萄糖稳态的有益作用已得到公认,但鱼肽复制蛋白质研究结果的能力却不太明确。在加拿大卫生研究院(CIHR)团队项目基金的资助下,我们的目标是确定具有缓解代谢功能障碍潜力的鲑鱼肽组分(SPF)。此外,资助目的还包括评估维生素 D(鲑鱼中常见的一种营养物质)是否能增强鲑鱼肽的有益作用。与此同时,我们还开发了分离和过滤分离肽的技术。我们采用综合方法,结合对动物模型和人体的营养干预,确定受三文鱼肽和其他鱼类营养物质调节的代谢途径。这种跨学科专业知识的结合显示,SPF 可以作为一种治疗工具,用于预防和治疗心脏代谢疾病。在此,我们将从一个角度介绍我们在加拿大高级研究学院(CIHR)的资助下,利用转化方法建立鱼类营养素对心脏代谢健康的影响和作用机制:从动物模型到临床试验。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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